An Improved Differential Evolution Method Based on the Dynamic Search Strategy to Solve Dynamic Economic Dispatch Problem with Valve-Point Effects

An improved differential evolution (DE) method based on the dynamic search strategy (IDEBDSS) is proposed to solve dynamic economic dispatch problem with valve-point effects in this paper. The proposed method combines the DE algorithm with the dynamic search strategy, which improves the performance of the algorithm. DE is the main optimizer in the method proposed. While chaotic sequences are applied to obtain the dynamic parameter settings in DE, dynamic search strategy which consists of two steps, global search strategy and local search strategy, is used to improve algorithm efficiency. To accelerate convergence, a new infeasible solution handing method is adopted in the local search strategy; meanwhile, an orthogonal crossover (OX) operator is added to the global search strategy to enhance the optimization search ability. Finally, the feasibility and effectiveness of the proposed methods are demonstrated by three test systems, and the simulation results reveal that the IDEBDSS method can obtain better solutions with higher efficiency than the standard DE and other methods reported in the recent literature.

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Application of Differential Evolution to Dynamic Economic Dispatch Problem with Transmission Losses under Various Bidding Strategies in Electricity Markets

Journal of Electrical Engineering and Technology ◽

10.5370/jeet.2012.7.5.681 ◽

2012 ◽

Vol 7 (5) ◽

pp. 681-688 ◽

Cited By ~ 7

Author(s):

B. Rampriya ◽

K. Mahadevan ◽

S. Kannan

Keyword(s):

Differential Evolution ◽

Electricity Markets ◽

Economic Dispatch ◽

Transmission Losses ◽

Bidding Strategies ◽

Economic Dispatch Problem ◽

Dynamic Economic Dispatch

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Differential Evolution Nonlinear Integer Algorithm based on Chaotic Local Search Strategy

International Journal of Advancements in Computing Technology ◽

10.4156/ijact.vol5.issue8.8 ◽

2013 ◽

Vol 5 (8) ◽

pp. 62-69

Author(s):

Zheng ruiying ◽

Wederni

Keyword(s):

Local Search ◽

Differential Evolution ◽

Search Strategy ◽

Local Search Strategy

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A Differential Evolution Algorithm with Local Search Strategy for Solving the Optimal Problem of Complex Ventilation Network

Computer Science and Application ◽

10.12677/csa.2021.112031 ◽

2021 ◽

Vol 11 (02) ◽

pp. 305-313

Author(s):

林李

Keyword(s):

Local Search ◽

Differential Evolution ◽

Search Strategy ◽

Differential Evolution Algorithm ◽

Ventilation Network ◽

Evolution Algorithm ◽

Local Search Strategy

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Adaptive differential evolution with difference mean based perturbation for dynamic economic dispatch problem

2013 IEEE Symposium on Differential Evolution (SDE) ◽

10.1109/sde.2013.6601440 ◽

2013 ◽

Cited By ~ 3

Author(s):

Rupam Kundu ◽

Rohan Mukherjee ◽

Swagatam Das ◽

Athanasios V. Vasilakos

Keyword(s):

Differential Evolution ◽

Economic Dispatch ◽

Adaptive Differential Evolution ◽

Economic Dispatch Problem ◽

Dynamic Economic Dispatch

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A Modified Differential Evolution Algorithm for Solving NonConvex Dynamic Economic Dispatch Problems

International Journal of Advanced Research in Computer Science and Software Engineering ◽

10.23956/ijarcsse/sv7i5/0285 ◽

2017 ◽

Vol 7 (5) ◽

pp. 82-88

Author(s):

Hardiansyah ◽

◽

Fuazen ◽

Keyword(s):

Differential Evolution ◽

Economic Dispatch ◽

Differential Evolution Algorithm ◽

Evolution Algorithm ◽

Dynamic Economic Dispatch

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The Economic Dispatch of Wind Integrated Power System based on an Improved Differential Evolution Algorithm

Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering) ◽

10.2174/2213111607666181226150448 ◽

2020 ◽

Vol 13 (3) ◽

pp. 384-395

Author(s):

Haiqing Liu ◽

Jinmeng Qu ◽

Yuancheng Li

Keyword(s):

Differential Evolution ◽

Artificial Bee Colony Algorithm ◽

Artificial Bee Colony ◽

Economic Dispatch ◽

Differential Evolution Algorithm ◽

Bee Colony ◽

Evolution Algorithm ◽

Improved Differential Evolution Algorithm ◽

Dynamic Economic Dispatch ◽

Integrated Power System

Background: As more and more renewable energy such as wind energy is connected to the power grid, the static economic dispatch in the past cannot meet its needs, so the dynamic economic dispatch of the power grid is imperative. Methods: Hence, in this paper, we proposed an Improved Differential Evolution algorithm (IDE) based on Differential Evolution algorithm (DE) and Artificial Bee Colony algorithm (ABC). Firstly, establish the dynamic economic dispatch model of wind integrated power system, in which we consider the power balance constraints as well as the generation limits of thermal units and wind farm. The minimum power generation costs are taken as the objectives of the model and the wind speed is considered to obey the Weibull distribution. After sampling from the probability distribution, the wind speed sample is converted into wind power. Secondly, we proposed the IDE algorithm which adds the local search and global search thoughts of ABC algorithm. The algorithm provides more local search opportunities for individuals with better evolution performance according to the thought of artificial bee colony algorithm to reduce the population size and improve the search performance. Results: Finally, simulations are performed by the IEEE-30 bus example containing 6 generations. By comparing the IDE with the other optimization model like ABC, DE, Particle Swarm Optimization (PSO), the experimental results show that obtained optimal objective function value and power loss are smaller than the other algorithms while the time-consuming difference is minor. The validity of the proposed method and model is also demonstrated. Conclusion: The validity of the proposed method and the proposed dispatch model is also demonstrated. The paper also provides a reference for economic dispatch integrated with wind power at the same time.

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A Local Search-Based Generalized Normal Distribution Algorithm for Permutation Flow Shop Scheduling

Applied Sciences ◽

10.3390/app11114837 ◽

2021 ◽

Vol 11 (11) ◽

pp. 4837

Author(s):

Mohamed Abdel-Basset ◽

Reda Mohamed ◽

Mohamed Abouhawwash ◽

Victor Chang ◽

S. S. Askar

Keyword(s):

Local Search ◽

Search Strategy ◽

Flow Shop ◽

Flow Shop Scheduling ◽

Discrete Problem ◽

Mutation Operator ◽

Shop Scheduling ◽

Permutation Flow Shop Scheduling ◽

Local Search Strategy ◽

Generalized Normal Distribution

This paper studies the generalized normal distribution algorithm (GNDO) performance for tackling the permutation flow shop scheduling problem (PFSSP). Because PFSSP is a discrete problem and GNDO generates continuous values, the largest ranked value rule is used to convert those continuous values into discrete ones to make GNDO applicable for solving this discrete problem. Additionally, the discrete GNDO is effectively integrated with a local search strategy to improve the quality of the best-so-far solution in an abbreviated version of HGNDO. More than that, a new improvement using the swap mutation operator applied on the best-so-far solution to avoid being stuck into local optima by accelerating the convergence speed is effectively applied to HGNDO to propose a new version, namely a hybrid-improved GNDO (HIGNDO). Last but not least, the local search strategy is improved using the scramble mutation operator to utilize each trial as ideally as possible for reaching better outcomes. This improved local search strategy is integrated with IGNDO to produce a new strong algorithm abbreviated as IHGNDO. Those proposed algorithms are extensively compared with a number of well-established optimization algorithms using various statistical analyses to estimate the optimal makespan for 41 well-known instances in a reasonable time. The findings show the benefits and speedup of both IHGNDO and HIGNDO over all the compared algorithms, in addition to HGNDO.

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